54 sods, each sized 1 m 2 , randomly over six patches and measured vegetation development and ant presence in the sods and surrounding control plots for 2 years. In the irst summer, signiicantly more Myrmica ants were found in the transplanted sods in comparison to the surrounding area. Herb cover had a signiicant positive efect on Myrmica ant presence while it did not afect the presence of the pioneer ant species Lasius niger. In the second year, Myrmica ants were found in the surrounding control plots as well. This study contributes to the knowledge-base required for the design of restoration projects aimed at expanding the habitat of the critically endangered butterly Maculinea (Phengaris) teleius.
Livestock farming is often addressed as one of the most impactful food production systems on the environment due to GHGE-Green-House Gas Emissions- and land use degradation. However, in the last years there is a growing number of studies that underline the beneficial environmental impacts of extensive livestock farming (i.e., providing ecosystem services, increasing biodiversity and improving carbon and nitrogen cycles), as well as social and economic benefits (i.e., offering alternative and additional forms of income in marginal areas). The multitude of livestock management approaches call urgently for specific tools of assessment in order to inform and orientate policies, farming practices and consumer choices. This study proposes a set of 14 agroecological indicators to assess the state of structural/planned agrobiodiversity in livestock farming systems. Our methodology stems from the already established Indicator-Based Framework to evaluate the sustainability of farming systems and adapted it specifically to livestock farming systems. The set of indicators has been clustered with respect to the ecosystem functions/services they describe. The methodology has been applied and validated on a selection of 12 Italian organic livestock farms and analyzed according to animal breeds and geographical regions. The results highlight that the farms show very positive results with optimal values for all indicators, except for Field Adjacency (FA), Share Species (SS), Share Group (SG). This study highlights how livestock farms could actually provide different ecosystem services in comparison to stockless farms.
In Europe, 50%–70% of former natural grassland area has been destroyed during the past 30 years due to land use changes, losses are expected to increase in the future. Restoration is thought to reverse this situation by creating suitable abiotic conditions. In this paper, we investigate the effects of sod translocation with specific vegetation to facilitate the restoration of a former intensive agricultural field into a wet meadow. First, starting conditions were optimized including modification of the local hydrology, removal of the fertilized topsoil, application of liming, and translocation of fresh clippings as a seed source. The second part aimed at restoring the habitat for the butterfly species Phengaris (Maculinea) teleius, one of the species that was especially affected by the loss of wet meadows. This species engages in a complex myrmecophilous relationship with one host plant, Sanguisorba officinalis, and one obligate host ant, Myrmica scabrinodis. We used sod translocation to create islands of habitat to promote host plant and host ant colonization. After 4 years following the restoration, we observed that plants spread from the transplanted sods to the surroundings. The vegetation composition and structure of the transplanted sods attracted colonization of Myrmica ants into the restored areas. Following the increase in vegetation cover and height, Myrmica ant colonies further spread into the restored areas. Therefore, sod translocations can be considered an effective restoration method following topsoil removal in the process of restoring wet meadows to provide a starting point for ant colonization and plant dispersion. With these findings, this paper contributes to the evidence‐based restoration of wet meadows on former agricultural fields, including complex interactions between invertebrates and their required ecological relationships.
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